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Q: A perfectly conducting filament containing a small 500 Q resistor is formed into a square as shown…
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Q: An infinite straight non-magnetic conductor of b radius carries current density of J=(p²+ qp) â…
A: By amperes law , Line integral (H.dl)= Ienc. Current I = surface integral (J.ds).
Q: Calculate the flux density at a distance of 5 cm from a long straight circular conductor carrying of…
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Q: How much current is required to produce a flux of 0.012 Wb, in the core? b) What is the relative…
A: Please refer the attached images for the complete answer..
Q: Q3) An infinitely long conductor is bent into an L shape as shown in Figure below. If a direct…
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Q: Find the numerical values of the magnetic field created by the L-length wire piece with a constant…
A: From the magnetic field intensity for a finite line equation
Q: Problem : Calculate magnetic field at point P due to current 5 A flowing through a long wire bent at…
A: Due to wire lying along x-axis the magnetic field will be zero at point P. The wire lying along…
Q: Q3) Find the force per unit length on two long straight parallel conductors if each carries a…
A: The solution can be achieved as follows.
Q: 2) With respect to the diagram shown below develop an equation for magnetic field intensity of a…
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Q: D flux density and di differential distance are perpendicular to each other. In such a case, find…
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Q: Problem 1 In the following magnetic circuit, N = 1000; µ. = 1230. As shown in the figure, for the…
A: In every magnet, there will be a north and south pole. For a permanent magnet that has north and…
Q: (a) A 6 pole, 2 circuit, wave-connected armature has 250 conductors and runs at 1200 r.p.m. The…
A: The solution is as follows.
Q: State Ampere's circuital law. Hence find the expression for the magnetic field strength ( B ) of a…
A: Ampere's circuital law: This law states that line integral of magnetic field along any closed path…
Q: A free standing linear conductor of length (l) carries a current (I) along the z-axis. Determine…
A: Flux density (B) at a point (P) located at distance (r) in the (x-y) plane is determined as shown…
Q: An infinite straight non-magnetic conductor of b radius carries current density of J=(p²+ qp) â_…
A: By Amperes line integration of H = total current enclose. From given current density calculate…
Q: а) Define the Ampere's Law in terms of the magnetic flux density B using equation and briefly…
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Q: Derive the flux density, D, by applying Gauss's Law: 1. Infinite Sheet Charge
A: Assuming the Gaussian surface to be a rectangular parallelopiped having an area of cross-section A.…
Q: 3.21 Consider the magnetic core given in Problem 3.20 and assume that there is a small 0.06cm at…
A: It is given that: CurrentI=5Apermealibility of core =2000depth=10cm
Q: For a flux density of 6 Kilo Gauss at a pole with a cross-sectional area of 9 cm2, how much is the…
A: In this question we will find total flux of given pole....
Q: Question 6: The magnetic system shown in the following figure has the following parameters: N=500…
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Q: A magnetic pole face has a rectangular section having dimensions 200 mm by 100 mm. If the total flux…
A: Given data: Total flux: 150 µWb
Q: Q3) a point charge of 2uc at origin and a sphere of radius Im with a uinform charge distribution pv-…
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Q: Two parallel long wires with radius a lying along the z axis with current I flowing in opposite…
A: (a) Write the expression for the magnetic field intensity H1 for the wire with the current in the…
Q: 1. In addition to resistive components, state or name one other electromagnetic component found in…
A: As per guidelines given to us we can only provide the solution of one question in multiple type of…
Q: Q2 (d): Maxwell's third and fourth equations for static fields in point form can be described in…
A: Maxwell 3rd and 4th equation for static field state that static electric field vector is an…
Q: The saturation curve of a particular core material shows that at a magnetic field intensity of 1250…
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Q: 1.Consider a situation where a balloon is rubbed on hair, the balloon is negatively charged. What…
A: 1.) If a balloon rubbed on hair then balloon and hair gets charged. If balloon is negatively charged…
Q: A conductor of length L has current I passing through it, when it is placed parallel to a magnetic…
A: A conductor of length L has current I passing through it, when it is placed parallel to a magnetic…
Q: Calculate the magnetising force and flux density at a distance of 5 cm from a long straight circular…
A: Given: A long straight circular conductor at a Distance, r = 5 cm, Carrying Current, I = 250 A
Q: True False -The generation of electricity achieved by moving a conductor in a magnetic field due to…
A: when an conductor moves in a magnetic field it produces EMF.
Q: Derive the flux density, D, by applying Gauss's Law: 1. Infinite Line Charge
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Q: The emf induced in a conductor of machine driven at 600 rpm, the peak value of flux density is 1…
A: Given, Machine driven at speed, N = 600 rpm n=60060=10 rps…
Q: onstant velocity. Assume that the conductor moves perpendicularly to the field. If the ends of the…
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Q: For a coaxial cable, the magnetic field strength at a radius less than the ? conductor's inner…
A: To find the magnetic field intensity in the coaxial cable, apply Ampere circuital law As per Ampere…
Q: 3. Write an equation about the electrodynamic forces between parallel conductors as a dependency of…
A: It is asked to write an equation about the electrodynamic forces between parallel conductors as a…
Q: Q2-Consider a filamentary wire is bent to form a square loop of side 3 m lying in the x-y plane as…
A: Magnetic field due to current carrying straight conductors can be found using Biot-Savat law.…
Q: An infinitely long conductoris bent into an L shape as shown in Figure. If a direct current of 4 A…
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Q: 2) With respect to the diagram shown below develop an equation for magnetic field intensity of a…
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Q: Q1/ A conductor carries a current of 10 A and is at right-angles to a magnetic field between two…
A: Given Flux ϕ=0.85 mWb pole face diameter =D =60 mm
Q: Q2-Consider a filamentary wire is bent to form a square loop of side 3 m lying in the x -y plane as…
A: Given: Consider a filamentary wire is bent to form a square loop of side 3 m lying in the x -y…
Q: a) Calculate magnetic field (x,y,z component)at P2 and P1 Step 2:Consider both wires b) Now what is…
A: Given: i1=11 Ai2=11 Al1=6 ml2=11-6 =5 mP10,6,-12P20,6,0P30,6,9 a) When only wire 1 is used:…
Q: current caring loop with radin =m and current I =2A %3D P5 For a find the mayentic flux density at…
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Q: 38. The line integral of the magnetic field intensity is given by: a. Flux density b. MMF c. Current…
A: Dear student we can solve one question at a time please post question number 39 again
Q: For a flux density of 600 Gauss at a pole with a cross-sectional area of 0.1 ft2, how much is the…
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Q: Using Bio-Savart's law, determine the magnetic flux density produced by a single turn of a current…
A: Using Bio-Savart's law, determine the magnetic flux density produced by a single turn of a current…
Q: Derive the flux density, D, by applying Gauss's Law: 1. Uniformly charged sph
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Q: A conductor carries a current of 70 A at right- angles to a magnetic field having a flux density of…
A: Given values are - CurrentI=70AFlux densityB=1.5TLengthL=200mm=0.2m
Q: Given a magnetic circuit with a current 2.6A flowing through 205 turns of wire on a core having a…
A: In a magnetic circuit, The Current, I = 2.6 A The number of turns, N= 205 turns The reluctance, R =…
Q: A cylindrical conductor with radius R carries a current I as shown. The current is uniformly…
A: 1. Outside the cylinder: Calculate the magnetic field using guass law: ∮B.dl=μ0I…
Q: Consider the magnetic core shown below. The coil wound on the centre limb has 1000 turns. If the…
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A free standing linear conductor of length (l) carries a current (I) along the z-axis. Determine the flux density (B) at a point (P) located at distance (r) in the (x-y) plane. (see figure)
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- Solve the base current of a voltage-divider bias circuit with Vcc=9V, R1=560k ohms, R2-560k ohms,RC=3.3k ohms, RE=680 ohms, and beta 100. O 15.9uA O 13.2uA 8.9uA O 10.9uAThe closed transition contactor is energized only on transfer from star to delta. How is this accomplished?For the clamper circuit shown below, Find and Plot the output waveforms and Check the essential condition of Clamper Circuit normal operation and compute the discharging time constant of this circuit. C 6 µF V. 5 Vin 3 KQ 2V -3 frequency=500 Hz
- In the figure if the trigger angle of thyristors is a = 60 The waveform of the load current drawPlz solve this within 30 min I vill definitely upvote and vill positive feedbackthe following waveform is the inductor current of the buck converter, the ripple current is equal to Q7) the following waveform is the inductor current of the buck converter, the ripple current is equal to Inductor current 35 30- 25- 20- Lead voltage Oa) 14A b) 15A c) 16A d) 17A
- Which of the following is not true regarding clamper? A positive clamper adds a positive DC voltage To reduce level shift, reduce the RC value O A clamper can also be called as a voltage restorer O Negative clamper will clamp the positive peak of output to the reference voltageSolve the base current of a voltage- divider bias circuit with Vcc=9V, R1-560k ohms, R2=560k ohms, RC=3.3k ohms, RE-680 ohms, and beta = 100. 8.9uA 15.9uA 13.2uA 10.9uAWhat are the different properties of a protaction systm